Simulation of the Evaporation of Carbon and Silicon Particles in a Short-Arc Discharge with a Graphite Cathode and a Composite Si/C Anode

A. I. Saifutdinov; R. A. Fazulzyanov; N. P. Germanov; D. D. Gushchin

doi:10.1134/S0018143924700905

Simulation of the Evaporation of Carbon and Silicon Particles in a Short-Arc Discharge with a Graphite Cathode and a Composite Si/C Anode

A. I. Saifutdinov^*
, R. A. Fazulzyanov
, N. P. Germanov
, D. D. Gushchin

^*Corresponding author for this work

Kazan National Research Technical University named after A.N. Tupolev

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Abstract: The paper presents the results of numerical simulations to study the evaporation of carbon particles from a graphite cathode and silicon particles from a composite Si/C anode in an arc discharge. It is shown that at current density there is intense evaporation of carbon particles from the cathode and silicon from the anode. It is shown that when taking into account the impact and step ionization of silicon atoms, as well as three-body recombination, the dominant type of ions is C⁺, and Si⁺ is the third most important ion. The density of neutral carbon particles reaches its maximum values in the center of the discharge gap, and silicon density reaches m⁻³ near the anode.

Original language	English
Pages (from-to)	S225-S231
Journal	High Energy Chemistry
Volume	58
Issue number	Suppl 2
DOIs	https://doi.org/10.1134/S0018143924700905
State	Published - Dec 2024
Externally published	Yes

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title = "Simulation of the Evaporation of Carbon and Silicon Particles in a Short-Arc Discharge with a Graphite Cathode and a Composite Si/C Anode",

abstract = "Abstract: The paper presents the results of numerical simulations to study the evaporation of carbon particles from a graphite cathode and silicon particles from a composite Si/C anode in an arc discharge. It is shown that at current density there is intense evaporation of carbon particles from the cathode and silicon from the anode. It is shown that when taking into account the impact and step ionization of silicon atoms, as well as three-body recombination, the dominant type of ions is C+, and Si+ is the third most important ion. The density of neutral carbon particles reaches its maximum values in the center of the discharge gap, and silicon density reaches m−3 near the anode.",

author = "Saifutdinov, \{A. I.\} and Fazulzyanov, \{R. A.\} and Germanov, \{N. P.\} and Gushchin, \{D. D.\}",

note = "Publisher Copyright: {\textcopyright} Pleiades Publishing, Ltd. 2024. ISSN 0018-1439, High Energy Chemistry, 2024, Vol. 58, Suppl. 2, pp. S225–S231. Pleiades Publishing, Ltd., 2024.",

year = "2024",

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doi = "10.1134/S0018143924700905",

language = "英语",

volume = "58",

pages = "S225--S231",

journal = "High Energy Chemistry",

issn = "0018-1439",

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TY - JOUR

T1 - Simulation of the Evaporation of Carbon and Silicon Particles in a Short-Arc Discharge with a Graphite Cathode and a Composite Si/C Anode

AU - Saifutdinov, A. I.

AU - Fazulzyanov, R. A.

AU - Germanov, N. P.

AU - Gushchin, D. D.

PY - 2024/12

Y1 - 2024/12

N2 - Abstract: The paper presents the results of numerical simulations to study the evaporation of carbon particles from a graphite cathode and silicon particles from a composite Si/C anode in an arc discharge. It is shown that at current density there is intense evaporation of carbon particles from the cathode and silicon from the anode. It is shown that when taking into account the impact and step ionization of silicon atoms, as well as three-body recombination, the dominant type of ions is C+, and Si+ is the third most important ion. The density of neutral carbon particles reaches its maximum values in the center of the discharge gap, and silicon density reaches m−3 near the anode.

AB - Abstract: The paper presents the results of numerical simulations to study the evaporation of carbon particles from a graphite cathode and silicon particles from a composite Si/C anode in an arc discharge. It is shown that at current density there is intense evaporation of carbon particles from the cathode and silicon from the anode. It is shown that when taking into account the impact and step ionization of silicon atoms, as well as three-body recombination, the dominant type of ions is C+, and Si+ is the third most important ion. The density of neutral carbon particles reaches its maximum values in the center of the discharge gap, and silicon density reaches m−3 near the anode.

UR - https://www.scopus.com/pages/publications/85210017980

U2 - 10.1134/S0018143924700905

DO - 10.1134/S0018143924700905

M3 - 文章

AN - SCOPUS:85210017980

SN - 0018-1439

VL - 58

SP - S225-S231

JO - High Energy Chemistry

JF - High Energy Chemistry

IS - Suppl 2

ER -

Simulation of the Evaporation of Carbon and Silicon Particles in a Short-Arc Discharge with a Graphite Cathode and a Composite Si/C Anode

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